Yousheng Lab At the cellular level, equipped with our unique axon recording method, we study axon physiology and mechanisms that regulate the cell excitability, particularly the role of axonal ion channels and. We performed whole cell recordings from the axons of dans in acute mouse midbrain and striatal slices. we detected both rapidly activating inactivating kv current (i.e. a current) and rapidly.
Publication Yousheng Lab Ph.d., chinese academy of sciences. the mechanism of subcellular fraction, individual neurons and interconnected local networks contribute to functioning of the cerebral cortex during normal brain. Here we find an important role of asynchronous release (ar) of gaba induced by high frequency stimulation (hfs) in alleviating motor functions of dopamine depleted male mice. Based on the abnormal cell excitability and circuit function in diseased state, we will study the neurobiological mechanisms of the existing neuromodulation technologies, explore potential targets. Laboratory of neural excitability and neuromodulation institute for translational brain research, state key laboratory of medical neurobiology, moe frontiers center for brain science,.
实验装置 Yousheng Lab Based on the abnormal cell excitability and circuit function in diseased state, we will study the neurobiological mechanisms of the existing neuromodulation technologies, explore potential targets. Laboratory of neural excitability and neuromodulation institute for translational brain research, state key laboratory of medical neurobiology, moe frontiers center for brain science,. About the lab the group currently focus on the study of turbulent mixing induced by rayleigh taylor and richtmyer meshkov instability, including simultations, theories and modeling. 2020年2月5日,课题组在neuron杂志上发表论文,阐述在大脑皮层中发现的神经微环路的功能调控新机制。 在大脑皮层谷氨酸能的锥体神经元轴突末梢上,存在一种特殊的囊泡释放模式,即非同步化释放(asynchronous release,ar)。 这种递质释放模式的强度在锥体神经元靶向不同细胞的突触中存在差异,且在靶向一种称为martinotti. Principal investigator: yousheng zhang | researchgate, the professional network for scientists. We use neuron simulation environment to examine the role of axonal ion channels in generating action potentials. biophysical property and density of ion channels are determined by experimental.
Yousheng Lab About the lab the group currently focus on the study of turbulent mixing induced by rayleigh taylor and richtmyer meshkov instability, including simultations, theories and modeling. 2020年2月5日,课题组在neuron杂志上发表论文,阐述在大脑皮层中发现的神经微环路的功能调控新机制。 在大脑皮层谷氨酸能的锥体神经元轴突末梢上,存在一种特殊的囊泡释放模式,即非同步化释放(asynchronous release,ar)。 这种递质释放模式的强度在锥体神经元靶向不同细胞的突触中存在差异,且在靶向一种称为martinotti. Principal investigator: yousheng zhang | researchgate, the professional network for scientists. We use neuron simulation environment to examine the role of axonal ion channels in generating action potentials. biophysical property and density of ion channels are determined by experimental.
Yousheng Lab Principal investigator: yousheng zhang | researchgate, the professional network for scientists. We use neuron simulation environment to examine the role of axonal ion channels in generating action potentials. biophysical property and density of ion channels are determined by experimental.
Yousheng Lab
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